CN114835386A - High-efficient production system of glass container - Google Patents

Abstract

The invention relates to the field of glass container production, and discloses a high-efficiency glass container production system which comprises an intermediate material conveyor for transferring a cup body or forming a wine distributor; a transfer jig for transferring the cup body; a handle bonding stage for performing a handle bonding operation; a forming tool and a forming die for shaping the handle; the formed cup body is clamped by a transfer clamp and then placed on an intermediate material conveyor, the transfer clamp with the cup body clamped is taken down from the intermediate material conveyor when the handle is bonded, the handle is manually bonded on the cup body by moving to a handle bonding table, the cup body bonded with the handle is placed in a forming die on a forming tool through the transfer clamp, and the bonded handle is shaped through the forming die. The invention can solve the problems of low efficiency and suture line defects of handles in the prior art for producing wine dividers.

Description

High-efficient production system of glass container

Technical Field

The invention relates to the field of glass container production, in particular to an efficient production system for glass containers.

Background

The glass ware is made of glass, and comprises a glass liquor dispenser for liquor; the wine distributor is generally made of high-borosilicate glass as a raw material through high-temperature processing, and is provided with a relatively slender cup body, a relatively thin cup wall thickness and a glass handle, wherein one end of the glass handle is fixed on the upper part of the cup body, and the other end of the glass handle hangs downwards along the cup body.

The traditional production of the wine distributor is that a cup body is manually blown and then the handle is manually tied, so that the processing efficiency is low, the labor intensity of workers is high, and the labor cost is high. In addition, a wine distributor is formed by one-time pressure blowing by using a pressure blowing machine, but the cup body of the processed product is thick, and the appearance is not attractive due to the seam line on the handle. In conclusion, the existing wine distributor production technology is difficult to finish the production and processing of the wine distributor with high efficiency and high quality.

Disclosure of Invention

The invention aims to provide an efficient production system for glass containers, and aims to solve the problems that the wine distributor is low in efficiency and the handle has the defect of a joint line in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a high-efficiency production system for glass containers comprises an intermediate material conveyor for transferring cup bodies or forming wine distributors; a transfer jig for transferring the cup body; a handle bonding stage for performing a handle bonding operation; a forming tool and a forming die for shaping the handle;

the formed cup body is clamped by a transfer clamp and then placed on an intermediate material conveyor, the transfer clamp with the cup body clamped is taken down from the intermediate material conveyor when the handle is bonded, the handle is manually bonded on the cup body by moving to a handle bonding table, the cup body bonded with the handle is placed in a forming die on a forming tool through the transfer clamp, and the bonded handle is shaped through the forming die.

The principle and the advantages of the scheme are as follows: during the practical application, carry out continuous machine-shaping to the cup earlier, then put temporarily on intermediate material conveyer one by one after with shifting anchor clamps clamping with the cup, the workman takes one by one from intermediate material conveyer when carrying out the handle bonding, bond on the cup after the handle bonding bench workman picks hot melt glass liquid to manual correction is the rough blank, then takes off the cup from shifting anchor clamps and puts into the forming die on the shaping frock, the rough blank is stereotyped to the handle in the forming die. The wine distributor processed like this, accessible blowing machine batch shaping cup, machining efficiency is higher, then installs the handle one by hand, and the handle utilizes glass liquid to stereotype from the casting in forming die, and handle surface smoothness does not have the suture line, and handle shaping quality is better.

Preferably, as an improvement, the intermediate material conveyor comprises a base and a chain, wherein a power mechanism for driving the chain to rotate is arranged on the base, and the chain is connected with the base in a sliding manner; the equidistance is equipped with a plurality of platforms of placing on the chain, places and is equipped with the standing groove in the platform, is equipped with the spacing portion that is used for avoiding the chain to take place the skew on the frame, and spacing portion includes the rigid coupling in the stopper of chain both sides, and the interval of two stoppers equals the width of chain, and two stoppers all are located the below of placing the platform.

According to the scheme, the processed glass cups are placed in the placing groove, and the chain is driven to rotate through the power mechanism, so that the glass cups are transferred; during the chain rotates, can play spacing effect to the chain through two stoppers, and then avoid the chain to take place the skew during the motion, guarantee the stable transfer of glass promptly. The placing table is driven by a chain to transfer, and then the glass cups are driven to transfer; compared with the prior art, the scheme has the advantages that after the glass cup placing device is used for a long time, the placing table can be inclined towards the single side of the chain due to the dead weight of the glass cup, the placing table can be supported by the limiting block, the inclination angle of the placing table is effectively prevented from being too large, the glass in the placing groove is prevented from falling, and the glass cup is guaranteed to be effectively and stably transferred.

Preferably, as an improvement, the chain is annular and is horizontally arranged; the machine base is provided with a through hole, and the chain is arranged along the edge of the through hole; two support rods are arranged on the machine base and are arranged in parallel.

The chain is horizontally arranged, and the placing table is driven by the chain to transfer, so that the glass cups are driven to transfer; when the glass cups are transferred to the end parts of the chains, the glass cups cannot be taken away by workers in time, and the glass cups can continuously move under the driving of the chains, so that the glass cups can be taken away by the workers at the next time; one worker needs to clamp the cup body by using the transfer clamp and transfer the cup body to another worker so that the handle of the other worker can be connected with the cup body; in this scheme, two staff are located the left and right sides of frame respectively, and the staff can place the transfer anchor clamps on two die-pins, can play the effect of supporting and placing temporarily to the transfer anchor clamps through two die-pins, provides more time for another staff, and another staff of being convenient for can be orderly get take the transfer anchor clamps.

Preferably, as an improvement, the transfer clamp comprises a handle and a movable block, a spring is arranged between the handle and the movable block, and a movable clamping arm is arranged on the movable block; a support plate is arranged on the handle, and the movable block is hinged with the support plate; the support plate is provided with a side groove which is used for being in sliding fit with the movable block, and the width of the side groove is the same as that of the movable block; the support plate is provided with a fixed clamping arm which is used for clamping the glass cup in a matching way with the movable clamping arm.

The movable block is rotated by pressing the movable block, and the movable block drives the fixed clamping arm of the movable clamping arm to move in the direction, so that the distance between the movable clamping arm and the fixed clamping arm is reduced, namely, the cup body is clamped by the movable clamping arm and the fixed clamping arm, and the spring is stretched; can play the guide effect to the motion of movable block through the side groove to, because the width of side groove is the same with the width of movable block, therefore during the movable block rotates, can avoid the movable block to take place to squint along the width direction of side groove, and then guarantee that the movable block drives movable arm lock and move to the direction of fixed arm lock, effectively avoid movable arm lock and fixed arm lock to take place the dislocation, and then guaranteed the tight effect of clamp to the cup.

Preferably, as an improvement, the bottom of the support plate is provided with a bottom block, the bottom block is provided with a groove, and the groove is provided with a pin shaft; the movable block is rotationally connected with the pin shaft and is in sliding fit with the groove; the support plate is provided with a stop block which is positioned between the fixed clamping arm and the movable clamping arm.

The movable block is pressed to rotate around the position of the pin shaft, and the movable block moves in the groove. Can play the effect of blockking through the dog to the cup, and then avoid the cup to drop from the backup pad.

Preferably, as an improvement, the handle bonding table comprises a support, a material receiving groove and a water tank with an opening at the top, wherein the material receiving groove is positioned below the support and is communicated with the water tank; connect the one end of silo near the support to connect the one end slope setting that the silo is close to the water tank, and connect the one end height that the silo is close to the support to be greater than and connect the one end height that the silo is close to the water tank.

According to the scheme, the cup body is clamped and positioned by using the existing transfer clamp, then the transfer clamp is placed on the bracket, and the transfer clamp is pressed and limited by hands, so that the cup body is positioned above the material receiving groove; the other hand of the worker clamps the glass handle by using the other transfer clamp and moves to the position above the material receiving groove to heat, so that the end to be bonded of the glass handle is in a molten state, and then the glass handle is driven to be connected with the side face of the cup body; compare in prior art, this scheme is in the end heating period of treating bonding to the glass handle, and glass waste material drops downwards for glass waste material removes to the water tank in through connecing the silo, with this realization to glass waste material cooling and concentrated recovery. Glass waste drops to connecing the silo after, owing to connect the slope setting of silo for glass waste moves to the water tank in connecing the direction in of silo, and then promotes glass waste's cooling and recovery.

Preferably, as an improvement, the support includes backup pad and two at least branch, connects the silo to be located the below of branch, connects silo and backup pad rigid coupling, and connects silo and the perpendicular setting of backup pad.

The transfer fixture can be supported through the supporting rod; in the whole course of working, the staff sits at the back of backup pad, can separate the processing region on staff and the base through the backup pad to this avoids the staff to be injured during processing.

Preferably, as an improvement, the shaping frock includes the base, and the base middle part is fixed with a vertical support column, and the support column top is fixed with the loading seat, and the loading seat is open-top's rectangle box, and the support column is fixed at loading seat bottom middle part, is equipped with heating mechanism in the loading seat, and heating mechanism is for stretching into the gas pipe that loads in the seat, has seted up a plurality of exhaust holes up on the gas pipe, and gas pipe intercommunication has the gas source, and loading seat lateral wall top supports the end for the mould.

The base provides the bottom sprag, guarantee the support column, the stability of loading seat, the support column supports the loading seat suitable height, so that the workman operates, it is used for loading the forming die who places the glass cup to load the seat, a plurality of moulds can be placed side by side simultaneously to the loading seat of rectangle box structure, can improve production efficiency, the support column is connected the balance and the stability that can guarantee the loading seat with loading seat bottom surface middle part, heating mechanism is used for heating the mould that loads the seat and place on it, the temperature that improves the mould guarantees that the handle bonds the back and keeps certain temperature in the mould in the design process, and then the handle can be on the mould reliable and stable shaping, avoid the handle to appear warping, guarantee that product quality homogeneous is stable.

Preferably, as an improvement, the left and right lateral wall of loading seat is fixed with vertical pin, the pin stretches out the top of loading the seat, the rear side of loading the seat is fixed with the baffle, the baffle with load the seat equal length, the top of baffle is higher than and loads the seat, the bottom mounting of loading the seat has the bracing piece, the bracing piece is the U type, a vertical end of bracing piece is high, another vertical end is low, the high-end outside that is located the baffle of bracing piece, the horizontal section and the loading seat bottom wall of bracing piece are fixed.

Can carry on spacingly to the left and right both sides that load the seat through the pin, avoid the mould from the side landing that loads the seat, can carry out spacing protection to loading a rear side through the baffle, avoid the workman mould to sideslip after loading the seat in the front side operation process, can provide the structure to loading the seat through the bracing piece and strengthen, the high-end of bracing piece can further strengthen the baffle, the low side can provide spacingly to loading a front side, avoids the mould landing from the front side.

Preferably, as an improvement, the forming die comprises a die holder, a positioning groove is formed in the middle of the upper end of the die holder, a forming seat located outside the positioning groove is arranged at the upper end of the die holder, a forming groove is formed in the middle of the forming seat, a vertical positioning rod is arranged at the upper end of the die holder, the axis of the positioning rod is coplanar with the central line of the forming groove, a rectangular supporting plate is fixed at the bottom of the die holder, and the die holder is located in the middle of the supporting plate.

The die holder is major structure, the standing groove is used for placing the cup, the shaping seat is used for supporting the handle of treating the design, the constant head tank is used for placing the handle, guarantee the design of handle, the locating lever is used for placing the process to the cup and counterpoints and fix a position, axial and constant head tank central line coplane through guaranteeing the locating lever, it is just right to guarantee the locating lever and constant head tank, and then it is the rim of a cup and aligns with the locating lever to place the cup, can make the position that the cup bonds the handle aim at with the constant head tank, and then guarantee the cup and keep the exact position with the handle, it is neat to make the handle cooling design, and is stable, the product shaping qualification rate promotes, and the shaping quality is better. The supporting plate can enlarge the supporting area of the bottom of the die holder, is favorable for improving the stability of the die holder in the using process or the placing process, and is favorable for ensuring the stable and reliable shaping of the handle in the using process.

Drawings

FIG. 1 is a top view of an embodiment of the present invention.

FIG. 2 is a top view of an intermediate material conveyor in an embodiment of the present invention.

Fig. 3 is a front view of a transfer fixture according to an embodiment of the present invention.

FIG. 4 is a top view of a handle bonding station in accordance with an embodiment of the present invention.

Fig. 5 is a front view of a handle bonding station according to an embodiment of the present invention.

FIG. 6 is an isometric view of a molding tool according to an embodiment of the invention.

Fig. 7 is a side view of a forming die according to an embodiment of the present invention.

Fig. 8 is a top view of a forming die according to an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises an intermediate material conveyor 1, a base 110, a driving sprocket 111, a driven sprocket 112, a chain 120, a placing table 130, a limiting block 140, a supporting rod 150, a transfer clamp 2, a handle 210, a support plate 211, a bottom block 212, a pin shaft 213, a fixed clamping arm 215, a stop 216, a movable block 220, a movable clamping arm 221, a spring 230, a handle bonding table 3, a base 310, a support 320, a support plate 321, a support rod 322, a reinforcing block 323, a material receiving groove 330, a water tank 340, a flame gun 350, a forming tool 4, a base 41, a support column 42, a loading seat 43, a stop lever 44, a baffle 45, a gas pipe 46, a support rod 47, an exhaust hole 48, a forming die 5, a supporting plate 51, a die holder 52, a forming seat 53, a positioning rod 54, a positioning groove 55 and a forming groove 56.

The embodiment is basically as shown in the attached figure 1: the high-efficient production system of glass container, including the intermediate material conveyer 1 used for shifting the cup or shaping wine distributor; a transfer jig 2 for transferring the cup body; a handle bonding stage 3 for performing a handle bonding operation; a forming tool 4 and a forming die 5 for shaping the handle; the formed cup bodies are clamped by the transfer clamp 2 and then placed on the intermediate material conveyor 1, the transfer clamp 2 with the cup bodies clamped is taken down from the intermediate material conveyor 1 when the handles are bonded, the handles are manually bonded on the cup bodies after the transfer clamp 2 moves to the handle bonding table 3, the cup bodies with the handles bonded are placed in the forming die 5 on the forming tool 4 through the transfer clamp 2, and the bonded handles are shaped through the forming die 5.

Referring to fig. 2, the intermediate material conveyor 1 includes a base 110 and a chain 120, the base 110 is provided with a power mechanism for driving the chain 120 to rotate, and the chain 120 is slidably connected to the base 110; the power mechanism comprises a motor, a driving chain wheel 111 and a driven chain wheel 112, the motor is fixedly connected to the base 110, an output shaft of the motor penetrates through the base 110 to be fixedly connected with the driving chain wheel 111, and the driven chain wheel 112 is rotatably connected with the base 110; the driving sprocket 111 and the driven sprocket 112 are both located above the base 110, the chain 120 is meshed with the driving sprocket 111 and the driven sprocket 112, and the chain 120 is in a stretched state.

The chain 120 is annular, and the chain 120 is horizontally arranged; the base 110 is provided with a through hole, and the chain 120 is arranged along the edge of the through hole. A plurality of placing tables 130 are fixedly connected with the chain 120 at equal intervals, and placing grooves are formed in the placing tables 130; the base 110 is provided with a limiting portion for preventing the chain 120 from deviating, and the limiting portion is disposed on the base 110 at the upper side of the through hole. The limiting part comprises limiting blocks 140 fixedly connected to two sides of the chain 120, the distance between the two limiting blocks 140 is equal to the width of the chain 120, the two limiting blocks 140 are both located below the placing table 130, and the driving sprocket 111 and the driven sprocket 112 are both located below the placing table 130. The distance between the free ends of the two limit blocks 140 and the base 110 is the same, the distance between the free ends of the two limit blocks 140 and the base 110 is smaller than the height of the chain 120, and the distance between the limit blocks 140 and the placing table 130 is 2 mm. Two support rods 150 are fixedly connected to the base 110, one support rod 150 is positioned above the through hole, and the other support rod 150 is positioned on the outer side of the base 110; the two support rods 150 are arranged in parallel, and the distance between the support rod 150 above the through hole and the machine base 110 is larger than the distance between the other support rod 150 and the machine base 110.

Referring to fig. 3, the transferring clamp 2 includes a handle 210 and a movable block 220, a spring 230 is fixedly connected between the handle 210 and the movable block 220, a movable clamping arm 221 is fixedly connected to the movable block 220, and the movable clamping arm 221 is arc-shaped. The handle 210 is fixedly connected with a support plate 211, and the movable block 220 is hinged with the support plate 211, specifically: the bottom of the support plate 211 is fixedly connected with a bottom block 212, the bottom block 212 is provided with a groove, and the width of the groove is the same as that of the movable block 220. The groove is fixedly connected with a pin shaft 213, and the width of the pin shaft 213 is smaller than that of the support plate 211, so that the worker is prevented from being stabbed by the overlong pin shaft 213. The movable block 220 is rotatably connected to the pin shaft 213, and the movable block 220 is slidably engaged with the groove. The support plate 211 is provided with a side groove for sliding fit with the movable block 220, and the width of the side groove is the same as that of the movable block 220. A fixed clamping arm 215 which is used for clamping the cup body in a matching way with the movable clamping arm 221 is fixedly connected to the support plate 211, and one end, far away from the support plate 211, of the fixed clamping arm 215 is arc-shaped. A stop 216 is fixedly connected to the support plate 211, the stop 216 is located between the fixed clamping arm 215 and the movable clamping arm 221, and the stop 216 is located at the side edge of the fixed clamping arm 215 and the side edge of the movable clamping arm 221; the stop 216 is disposed adjacent to the fixed clip arm 215.

As shown in fig. 4 and 5, the handle bonding table 3 includes a base 310, a support 320, a material receiving groove 330, and a water tank 340 with an open top are fixedly connected to the base 310, the support 320 includes a support plate 321 and two support rods 322, and both the support plate 321 and the support rods 322 are fixedly connected to the base 310; the two supporting rods 322 are arranged in parallel, and the supporting rods 322 are arranged in parallel with the supporting plate 321; the two struts 322 are vertically spaced the same distance from the base 310, and two reinforcing blocks 323 are fixed between the two struts 322. The material receiving groove 330 is positioned below the supporting rod 322, and the material receiving groove 330 is communicated with the water tank 340; the material receiving groove 330 is fixedly connected with the support plate 321, and the material receiving groove 330 is perpendicular to the support plate 321. The end of the material receiving groove 330 close to the support plate 321 is inclined towards the end of the material receiving groove 330 close to the water tank 340, and the height of the end of the material receiving groove 330 close to the support plate 321 is greater than the height of the end of the material receiving groove 330 close to the water tank 340. A flame gun 350 is fixed on the base 310, and the opening of the flame gun 350 is arranged towards the upper part of the material receiving groove 330.

Referring to fig. 6, the forming tool 4 includes a base 41, the base 41 is H-shaped, a vertical supporting column 42 is welded and fixed to the middle of the base 41, and the supporting column 42 is fixed to the middle of the H-shaped. The top of the supporting column 42 is fixedly welded with a loading seat 43, the loading seat 43 is a rectangular box body with an open top, the supporting column 42 is fixed in the middle of the bottom surface of the loading seat 43, and the top end of the side wall of the loading seat 43 is a mold supporting end. A heating mechanism is arranged in the loading seat 43, the heating mechanism is a gas pipe 46 extending into the loading seat 43, a plurality of upward exhaust holes 48 are formed in the gas pipe 46, and the gas pipe 46 is communicated with a gas source. Vertical blocking rods 44 are welded and fixed on the left and right side walls of the loading seat 43, and the blocking rods 44 extend out of the loading seat 43. A baffle plate 45 is welded and fixed on the rear side of the loading seat 43, the length of the baffle plate 45 is equal to that of the loading seat 43, and the top end of the baffle plate 45 is higher than that of the loading seat 43. The bottom welded fastening of loading seat 43 has bracing piece 47, and bracing piece 47 is the U type, and a vertical end of bracing piece 47 is high, another vertical end is low, and the high-end of bracing piece 47 is located the outside of baffle 45, and the horizontal section and the loading seat 43 diapire welded fastening of bracing piece 47, the low side and the pin 44 of bracing piece 47 flush. Three support rods 47 are uniformly distributed along the length direction of the loading base 43.

Referring to fig. 7 and 8, the forming mold 5 includes a cylindrical mold seat 52, a circular positioning groove 55 is formed in the middle of the upper end of the mold seat 52, a forming seat 53 located outside the positioning groove 55 is formed at the upper end of the mold seat 52, and the forming seat 53 is integrally formed on the mold seat 52. The middle part of the forming seat 53 is provided with a forming groove 56, and the contour of the forming groove 56 is fit with the contour of the handle. The upper end of the die holder 52 is welded with a vertical positioning rod 54, the axis of the positioning rod 54 is coplanar with the central line of the forming groove 56, and the top end of the positioning rod 54 is a tip end. The bottom of the die holder 52 is fixedly welded with a supporting plate 51, the supporting plate 51 is a rectangular plate, and the die holder 52 is located in the middle of the supporting plate 51.

The specific implementation process is as follows: the blowing of the cup is accomplished with a blow-molding machine and then the excess stock is exploded off by a fire ring or laser. Then a cup mouth is processed at the opening end of the cup body manually or mechanically, and then the cup body is sent into an annealing furnace for annealing treatment and then is stored uniformly. When the handle is processed, the stored cup bodies are uniformly conveyed into a preheating furnace to be preheated until the temperature of the cup bodies is close to that of the handle rough blank in the handle forming process, so that the handle rough blank cannot generate internal stress to burst.

The cup body preheated in the preheating furnace is clamped by the transfer clamp 2 and then placed on the intermediate material conveyor 1, and the handle 210 of the transfer clamp 2 is supported by the two support rods 150, so that the clamped cup body is supported. When a worker attaches a handle, the transfer jig 2 with a cup is taken out from the intermediate material conveyor 1 and placed on the handle attaching table 3, and the transfer jig 2 is supported on the handle attaching table 3 by the stay 322. A worker takes part of the molten glass from the material channel opening of the glass kiln, the material channel opening of the kiln can be divided into a plurality of hole sites, so that a plurality of stations can take the material at the same time, and the worker can also take the material at one hole site. A worker manually corrects the obtained molten glass into a handle rough blank and then bonds the handle rough blank on a cup body in a high-temperature state, a flame gun 350 is used for heating a bonding part in the bonding process to ensure the plasticity and viscosity of the glass, then, redundant glass liquid is cut off, the bonded part is adjusted to be the handle rough blank, and the bonded handle rough blank is moved to a forming tool 4 together with a transfer clamp 2.

The workman presses movable arm lock 221 at shaping frock 4 and unclamps the clamping to the cup, then will bond the cup that has the handle rough blank and take and put down in the constant head tank 55 of the forming die 5 of the brilliant material of carbon, place the in-process and paste the locating lever 54 on the die holder 52 with the glass mouth of cup and fix a position for the handle rough blank is aimed at and is put into the shaping groove 56 after shaping groove 56, along with the profile completion handle design of the reduction of temperature handle rough blank laminating shaping groove 56, accomplish the processing of wine ware.

Then, the worker takes out the wine distributor from the forming die 5 and puts the wine distributor into a placing groove of the intermediate material conveyor 1, and the formed wine distributor is conveyed to stations such as quality inspection, packaging and the like along with the operation of the intermediate material conveyor 1. Like this the cup passes through the high-efficient processing of blowing machine, and the handle passes through manual bonding operation, and the shaping of cooperation open type forming die 5 is stereotyped, and there is not the joint line in fashioned handle, and shaping quality is better.

The foregoing is merely an example of the present invention and common general knowledge in the art of designing and/or characterizing particular aspects and/or features is not described in any greater detail herein. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be defined by the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. High-efficient production system of glass container, its characterized in that: comprises that

An intermediate material conveyor for transferring the cup body or forming the wine distributor;

a transfer jig for transferring the cup body;

a handle bonding stage for performing a handle bonding operation;

a forming tool and a forming die for shaping the handle;

the formed cup body is clamped by a transfer clamp and then placed on an intermediate material conveyor, the transfer clamp with the cup body clamped is taken down from the intermediate material conveyor when the handle is bonded, the handle is manually bonded on the cup body by moving to a handle bonding table, the cup body bonded with the handle is placed in a forming die on a forming tool through the transfer clamp, and the bonded handle is shaped through the forming die.

2. The glass container high efficiency production system of claim 1, wherein: the intermediate material conveyor comprises a base and a chain, wherein a power mechanism for driving the chain to rotate is arranged on the base, and the chain is connected with the base in a sliding manner; the equidistance is equipped with a plurality of platforms of placing on the chain, places and is equipped with the standing groove in the platform, is equipped with the spacing portion that is used for avoiding the chain to take place the skew on the frame, and spacing portion includes the rigid coupling in the stopper of chain both sides, and the interval of two stoppers equals the width of chain, and two stoppers all are located the below of placing the platform.

3. The glass container high efficiency production system of claim 2, wherein: the chain is annular and is horizontally arranged; the machine base is provided with a through hole, and the chain is arranged along the edge of the through hole; two support rods are arranged on the machine base and are arranged in parallel.

4. The glass container high efficiency production system of claim 1, wherein: the transfer clamp comprises a handle and a movable block, a spring is arranged between the handle and the movable block, and a movable clamping arm is arranged on the movable block; a support plate is arranged on the handle, and the movable block is hinged with the support plate; the support plate is provided with a side groove which is used for being in sliding fit with the movable block, and the width of the side groove is the same as that of the movable block; the support plate is provided with a fixed clamping arm which is used for clamping the glass cup in a matching way with the movable clamping arm.

5. The glass container high efficiency production system of claim 4, wherein: the bottom of the support plate is provided with a bottom block, the bottom block is provided with a groove, and the groove is provided with a pin shaft; the movable block is rotationally connected with the pin shaft and is in sliding fit with the groove; the support plate is provided with a stop block which is positioned between the fixed clamping arm and the movable clamping arm.

6. The glass container high efficiency production system of claim 1, wherein: the handle bonding table comprises a support, a material receiving groove and a water tank with an opening at the top, the material receiving groove is positioned below the support, and the material receiving groove is communicated with the water tank; connect the one end of silo near the support to connect the one end slope setting that the silo is close to the water tank, and connect the one end height that the silo is close to the support to be greater than and connect the one end height that the silo is close to the water tank.

7. The glass container high efficiency production system of claim 6, wherein: the support includes backup pad and two at least branches, connects the silo to be located the below of branch, connects silo and backup pad rigid coupling, and connects silo and backup pad perpendicular setting.

8. The glass container efficient production system of claim 1, wherein: the shaping frock includes the base, and the base middle part is fixed with a vertical support column, and the support column top is fixed with the loading seat, and the loading seat is open-top's rectangle box, and the support column is fixed at loading seat bottom middle part, is equipped with heating mechanism in the loading seat, and heating mechanism is for stretching into the gas pipe that loads in the seat, has seted up a plurality of exhaust holes up on the gas pipe, and gas pipe intercommunication has the gas source, and loading seat lateral wall top supports the end for the mould.

9. The glass container high efficiency production system of claim 8, wherein: the left and right lateral walls of the loading seat are fixed with vertical stop levers which extend out of the top of the loading seat, the rear side of the loading seat is fixed with a baffle, the baffle and the loading seat are equal in length, the top end of the baffle is higher than the loading seat, the bottom end of the loading seat is fixed with a support rod, the support rod is of a U shape, one vertical end of the support rod is high, the other vertical end of the support rod is low, the high end of the support rod is located on the outer side of the baffle, and the transverse section of the support rod is fixed with the bottom wall of the loading seat.

10. The glass container efficient production system of claim 1, wherein: the forming die comprises a die holder, a positioning groove is formed in the middle of the upper end of the die holder, a forming seat located on the outer side of the positioning groove is arranged at the upper end of the die holder, a forming groove is formed in the middle of the forming seat, a vertical positioning rod is arranged at the upper end of the die holder, the axis of the positioning rod is coplanar with the central line of the forming groove, a rectangular supporting plate is fixed at the bottom of the die holder, and the die holder is located in the middle of the supporting plate.

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